Nuclear Chemistry

The following problems are taken from T. L. Brown, H. E. Lemay, B. E. Bursten, & J. R. Burdge, Chemistry: The Central Science, Ninth Edition, Chapter 21.

12) Each of the following nuclei undergoes either beta or positron emission. Predict the type of emission for each:

       (a) ⁶⁶₃₂Ge

       (b) ¹⁰⁵₄₅Rh

       (c) iodine-137

       (d) cerium-133

16) In each of the following pairs, which nuclide would you expect to be the more abundant in nature and justify your choices:

      (a) ¹¹⁵₄₈Cd or ¹¹²₄₈Cd

      (b) ³⁰₁₃Al or ²⁷₁₃Al

      (c) palladium-106 or palladium-113
             
      (d) xenon-128 or cesium-128

26) Write balanced equations for:   

      (a) ²³⁸₉₂U(α,n)²⁴¹₉₄Pu    

      (b) ¹⁴₇N(α,p)¹⁷₈O

      (c) ⁵⁹₂₆Fe(α,β)⁶³₂₉Cu

36) Cobalt-60, which undergoes beta decay, has a half-life of 5.26 yr. 

      (a) How many beta particles are emitted in 45.5 s by a 2.44-mg sample of ⁶⁰Co?

      (b) What is the activity of the sample in Bq?

44) How much energy must be supplied to break a single ²¹Ne nucleus into separated protons and neutrons if the nucleus has a mass of 20.98846 amu? What is the nuclear binding energy for 1 mol of ²¹Ne?

76) The Sun radiates energy into space at the rate of 3.9 x 10²⁶ J/s.

      (a) Calculate the rate of mass loss from the Sun in kg/s.    

      (b) How does this mass loss arise?